Lens Barrel and Lens Module
A lens barrel includes a barrel wall disposed about a longitudinal axis, an external thread continuously formed on the barrel wall and having a continuous crest, and two parting lines that are longitudinally formed on the external thread and that are symmetrical about the longitudinal axis. A projection of the crest of the external thread on a plane orthogonal to the longitudinal axis has a maximum diameter and a minimum diameter. A difference between the maximum and minimum diameters is between 0.04 mm and 0.18 mm. Each of the two parting lines is disposed on portions of the external thread that define the minimum diameter.
This application claims priority to Taiwanese Application No. 101101945, filed on Jan. 18, 2012.
BACKGROUND OF THE INVENTION1. Field of the Invention
The invention relates to a lens barrel, and more particularly to a lens barrel that solves flash issue and that does not need vent holes.
2. Description of the Related Art
A lens barrel of a conventional lens module has flashes on a parting line after injection molding. When the lens barrel is bolted with a holder, the flashes on an external thread of the lens barrel rub against an internal thread of the holder to thereby result in powder pollution, which is called a flash issue.
Referring to
When the thread structure 1 is assembled with an internal thread 301 of a holder 3, flashes at the parting line 103 do not rub against the internal thread 301, so that the powder pollution does not occur. However, a difference between the edge of the normal thread 101 and that of the partial withdraw thread 102 is greater than 0.03 mm in a radial direction, and thus forms a clearance surface 104 between an outer edge of the normal thread 101 and the partial withdraw thread 102, resulting in accumulation of powders on the clearance surface 104. That is, powders produced due to rubbing between the normal thread 101 and the internal thread 301 easily accumulate on the clearance surfaces 104, and fall off during repeated threading assembly and disassembly in rework processes which may result in pollution of an imaging sensor, such as a surface powder pollution issue of a complementary metal-oxide-semiconductor (CMOS) imaging sensor.
Moreover, formation of the clearance surface 104 between the normal thread 101 and the partial withdraw thread 102 can lead to the situation that the demand of torque in an assembling process is non-continuous torque.
As shown in
Therefore, an object of the present invention is to provide a lens barrel that can solve the flash issue.
According to one aspect of the present invention, a lens barrel comprises a barrel wall disposed about a longitudinal axis, an external thread continuously formed on the barrel wall and having a continuous crest, and two parting lines that are longitudinally formed on the external thread and that are symmetrical about the longitudinal axis. A projection of the crest of the external thread on a plane orthogonal to the longitudinal axis has a maximum diameter and a minimum diameter. A difference between the maximum and minimum diameters is between 0.04 mm and 0.18 mm. Each of the two parting lines is disposed on portions of the external thread that define the minimum diameter.
Another object of the present invention is to provide a lens module that can solve the flash issue and that does not need vent holes required in the prior art.
According to another aspect of the pre sent invention, a lens module comprises a holder and a lens barrel. The holder has an inner peripheral surface, and an internal thread formed on the inner peripheral surface. The lens barrel is assembled with the holder. The lens barrel has a barrel wall disposed about a longitudinal axis, an external thread continuously formed on the barrel wall and having a continuous crest, and two parting lines that are longitudinally formed on the external thread and that are symmetrical about the longitudinal axis. A projection of the crest of the external thread on a plane orthogonal to the longitudinal axis has a maximum diameter and a minimum diameter. A difference between the maximum and minimum diameters is between 0.04 mm and 0.18 mm. Each of the two parting lines is disposed on portions of the external thread that define the minimum diameter, so as not to contact the internal thread of the holder.
Other features and advantages of the present invention will become apparent in the following detailed description of the preferred embodiments with reference to the accompanying drawings, of which:
Before the present invention is described in greater detail with reference to the preferred embodiments, it should be noted herein that similar components are denoted by the same reference numerals in the following description.
Referring to
The holder 10 has a base portion 11 excluding any vent hole therefrom, a cask 12 disposed above the base portion 11, an internal peripheral surface 13, and an internal thread 14 formed on the inner peripheral surface 13.
As shown in
The lenses 30 include a plurality of optical lenses and a piece of flat glass, and are disposed in the accommodating space 24 of the lens barrel 20.
The external thread 22 has a root 221 disposed at a bottom thereof, and a continuous crest 222 disposed at a top thereof.
A projection 223 of the crest 222 of the external thread 22 on a plane orthogonal to the X-axis has a non-uniform outer diameter D. The outer diameter D includes a maximum diameter D1 and a minimum diameter D2. A difference between the maximum diameter D1 and the minimum diameter D2 is between 0.04 mm and 0.18 mm. Each of the two parting lines 23 is disposed on portions of the external thread 22 that define the minimum diameter D2, so as not to contact the internal thread 14 of the holder 10.
In this embodiment, with reference to
It should be noted that, in this embodiment, the external thread 22 is an international standard metric thread M6.5X0.35, so that the external thread 22 is generally V-shaped in cross-section, the crest thereof is flat, and the root thereof is an arc. Therefore, the crest 222 is a continuous top thread surface, and the root 221 is a continuous bottom thread surface. Additionally, in the figures, for the sake of clarity, the difference between the maximum diameter D1 and the minimum diameter D2 is exaggerated, that is, the difference shown in figures is not an actual scale.
Referring to
The external thread 22 has a first radial thread depth d1 at the portions thereof that define the maximum diameter D1, and has a second radial thread depth d2 at the portions thereof that define the minimum diameter D2. The first radial thread depth d1 is greater than the second radial thread depth d2. In this embodiment, d1=d2+0.03 mm.
The external thread 22 is in contact with the internal thread 14 at the portions thereof that define the maximum diameter D1, and does not contact the internal thread 14 at the portions thereof that define the minimum diameter D2, thereby forming a gap 25.
Further referring to
From
To conclude, the lens module of this embodiment is advantageous for the following reasons:
1. The outer diameter D of the external thread 22 of the lens barrel 20 of this embodiment changes continuously, and has a maximum diameter D1 and a minimum diameter D2. When the lens barrel 20 is assembled with the holder 10, the portions of the external thread 22 that define the maximum diameter D1 contact the internal thread 14, while the portions of the external thread 22 that define the minimum diameter D2 do not contact the internal thread 14. As such, flashes on the parting lines 23 do not rub against the internal thread 14 during assembly, thereby solving the flash issue.
2. The external thread 22 of the lens barrel 20 has a continuous crest 222, and is continuously formed on the barrel wall 21. Thus, the external thread 22 does not have a discontinuous change in diameter as encountered in the prior art (such as U.S. Pat. No. 7,565,078 B2), so as to prevent accumulation of powders and to obtain good control in an assembling process due to continuity of torque variation.
3. As shown in
In this embodiment, each of the withdraw portions 227 has two straight portions 228 that form an angle being slightly smaller than 180 degrees therebetween and that intersect at an endpoint, through which a corresponding one of the parting lines 23 passes. The angle formed by the two straight portions 228 is 176 degrees. Each straight portion 228 forms a center angle of 11 degrees with respect to a circle center of the arc portions 226. Each straight portion 228 has a stripping angle of 2 degrees to facilitate mold stripping.
Referring to
To sum up, the lens barrel and the lens module of this invention can prevent powder pollution from rubbing of flashes, can omit need to form vent holes in the holder, and can have good control of torque.
While the present invention has been described in connection with what are considered the most practical and preferred embodiments, it is understood that this invention is not limited to the disclosed embodiments but is intended to cover various arrangements included within the spirit and scope of the broadest interpretation so as to encompass all such modifications and equivalent arrangements.
Claims
1. A lens barrel comprising a barrel wall disposed about a longitudinal axis, an external thread continuously formed on said barrel wall and having a continuous crest, and two parting lines that are longitudinally formed on said external thread and that are symmetrical about the longitudinal axis, wherein a projection of said crest of said external thread on a plane orthogonal to the longitudinal axis has a maximum diameter and a minimum diameter, a difference between the maximum and minimum diameters being between 0.04 mm and 0.18 mm, each of said two parting lines being disposed on portions of said external thread that define the minimum diameter.
2. The lens barrel as claimed in claim 1, wherein the projection of said crest of said external thread on the plane orthogonal to the longitudinal axis is an ellipse, said maximum diameter being equal to the length of a major axis of the ellipse, said minimum diameter being equal to the length of a minor axis of the ellipse.
3. The lens barrel as claimed in claim 2, wherein said external thread has a first axial root thickness at portions thereof that define the maximum diameter, and has a second axial root thickness at the portions thereof that define the minimum diameter, said first axial root thickness being greater than said second axial root thickness.
4. The lens barrel as claimed in claim 3, wherein said external thread has a first radial thread depth at the portions thereof that define the maximum diameter, and a second radial thread depth at the portions thereof that define the minimum diameter, said first radial thread depth being greater than said second radial thread depth.
5. The lens barrel as claimed in claim 1, wherein the projection of said external thread on the plane orthogonal to the longitudinal axis has two opposite arc portions defining the maximum diameter, and has two opposite withdraw portions that define the minimum diameter and that interconnect said two arc portions, said arc portions having a uniform curvature radius.
6. The lens barrel as claimed in claim 5, wherein said two withdraw portions are arcs, respectively.
7. The lens barrel as claimed in claim 5, wherein each of said withdraw portions has two straight portions that form an angle being smaller than 180 degrees therebetween and that intersect at an endpoint, through which a corresponding one of said parting lines passes.
8. The lens barrel as claimed in claim 5, wherein said external thread has a first axial root thickness at portions thereof that define the maximum diameter, and has a second axial root thickness at the portions thereof that define the minimum diameter, said first axial root thickness being greater than said second axial root thickness.
9. The lens barrel as claimed in claim 8, wherein said external thread has a first radial thread depth at the portions thereof that define the maximum diameter, and a second radial thread depth at the portions thereof that define the minimum diameter, said first radial thread depth being greater than said second radial thread depth.
10. A lens module comprising:
- a holder having an inner peripheral surface, and an internal thread formed on said inner peripheral surface; and
- a lens barrel assembled with said holder, said lens barrel having a barrel wall disposed about a longitudinal axis, an external thread continuously formed on said barrel wall and having a continuous crest, and two parting lines that are longitudinally formed on said external thread and that are symmetrical about the longitudinal axis, wherein a projection of said crest of said external thread on a plane orthogonal to the longitudinal axis has a maximum diameter and a minimum diameter, a difference between the maximum and minimum diameters being between 0.04 mm and 0.18 mm, each of said two parting lines being disposed on portions of said external thread that define the minimum diameter, so as not to contact said internal thread of said holder.
11. The lens module as claimed in claim 10, wherein the projection of said crest of said external thread on the plane orthogonal to the longitudinal axis is an ellipse, said maximum diameter being equal to the length of a major axis of the ellipse, said minimum diameter being equal to the length of a minor axis of the ellipse.
12. The lens module as claimed in claim 11, wherein said external thread has a first axial root thickness at portions thereof that define the maximum diameter, and has a second axial root thickness at the portions thereof that define the minimum diameter, said first axial root thickness being greater than said second axial root thickness.
13. The lens module as claimed in claim 12, wherein said external thread has a first radial thread depth at the portions thereof that define the maximum diameter, and a second radial thread depth at the portions thereof that define the minimum diameter, said first radial thread depth being greater than said second radial thread depth.
14. The lens module as claimed in claim 10, wherein the projection of said external thread on the plane orthogonal to the longitudinal axis has two opposite arc portions defining the maximum diameter, and has two opposite withdraw portions that define the minimum diameter, and that interconnect said two arc portions, said arc portions having a uniform curvature radius.
15. The lens module as claimed in claim 14, wherein said two withdraw portions are arcs, respectively.
16. The lens module as claimed in claim 14, wherein each of said withdraw portions has two straight portions that form an angle being slightly smaller than 180 degrees therebetween and that intersect at an endpoint, through which a corresponding one of said parting lines passes.
17. The lens module as claimed in claim 14, wherein said external thread has a first axial root thickness at portions thereof that define the maximum diameter, and a second axial root thickness at the portions thereof that define the minimum diameter, said first axial root thickness being greater than said second axial root thickness.
18. The lens module as claimed in claim 17, wherein said external thread has a first radial thread depth at the portions thereof that define the maximum diameter, and has a second radial thread depth at the portions thereof that define the minimum diameter, said first radial thread depth being greater than said second radial thread depth.
Type: Application
Filed: Aug 22, 2012
Publication Date: Jul 18, 2013
Patent Grant number: 8792192
Inventors: Kuo-Wen Chang (Taichung City), Min-Wei Lee (Taichung City)
Application Number: 13/591,412